#define _CRT_SECURE_NO_WARNINGS 1

#include"ConcurrentAlloc.h"

void Alloc1()
{
	for (size_t i = 0; i < 5; ++i)
	{
		void* ptr = ConcurrentAlloc(6);
	}
}

void Alloc2()
{
	for (size_t i = 0; i < 5; ++i)
	{
		void* ptr = ConcurrentAlloc(7);
	}
}

void TLSTest()
{
	std::thread t1(Alloc1);
	t1.join();

	std::thread t2(Alloc2);
	t2.join();
}

void TestConcurrentAlloc1()
{
	void* p1 = ConcurrentAlloc(6);
	void* p2 = ConcurrentAlloc(8);
	void* p3 = ConcurrentAlloc(1);
	void* p4 = ConcurrentAlloc(7);
	void* p5 = ConcurrentAlloc(8);
	/*void* p6 = ConcurrentAlloc(8);
	void* p7 = ConcurrentAlloc(8);*/


	cout << p1 << endl;
	cout << p2 << endl;
	cout << p3 << endl;
	cout << p4 << endl;
	cout << p5 << endl;

	ConcurrentFree(p1, 6);
	ConcurrentFree(p2, 8);
	ConcurrentFree(p3, 1);
	ConcurrentFree(p4, 7);
	ConcurrentFree(p5, 8);
	/*ConcurrentFree(p6, 8);
	ConcurrentFree(p7, 8);*/
}

void TestConcurrentAlloc2()
{
	for (size_t i = 0; i < 1024; ++i)
	{
		void* p1 = ConcurrentAlloc(6);
		cout << p1 << endl;
	}

	void* p2 = ConcurrentAlloc(8);
	cout << p2 << endl;
}

void MultiThreadAlloc1()
{
	std::vector<void*> v;
	for (size_t i = 0; i < 70000; ++i)
	{
		void* ptr = ConcurrentAlloc(66666);
		v.push_back(ptr);
	}

	for (auto e : v)
	{
		ConcurrentFree(e, 66666);
	}
}

void MultiThreadAlloc2()
{
	std::vector<void*> v;
	for (size_t i = 0; i < 7; ++i)
	{
		void* ptr = ConcurrentAlloc(1666);
		v.push_back(ptr);
	}

	for (auto e : v)
	{
		ConcurrentFree(e, 1666);
	}
}

void TestMultiThread()
{
	std::thread t1(MultiThreadAlloc1);
	std::thread t2(MultiThreadAlloc2);

	t1.join();
	t2.join();
}


//int main()
//{
//	TestMultiThread();
//	return 0;
//}